KR100322503B1 - Gas Insulated Switchgear - Google Patents

Abstract

The gas insulated switchgear according to the present invention includes a gas insulated double main bus, a gas insulated switchgear for busbar division and busbar connection, and a main transformer instrument transformer and a main earth bus switch for each main busbar. The gas insulated switchgear for main and bus connection is equipped with a vertical type gas circuit breaker, a main transformer instrument transformer and a main circuit work ground switch in one bus bar.

The vertical installation of circuit breaker in the gas insulated switchgear for bus separation and bus connection reduces the whole device horizontally. When the breaker is set vertically, a difference in length occurs between connecting the main bus to the branch bus drawn out from the lower part of the breaker and the branch bus drawn out from the upper part. Therefore, unnecessary bus lengths are eliminated by arranging busbars PT and busbars ES at portions of the branch busbars.

Description

Gas Insulated Switchgear

The present invention relates to a gas insulated switchgear of a double bus system having a gas insulated switchgear unit for the bus bar division and bus connection can be seen in the double bus bar bus connection method.

In order to reduce the gas insulated switchgear and shorten the bus length, various proposals have been made in the related art in the arrangement of the busbar PT and busbar ES. Apart from the switchgear unit, a gas insulated switchgear with a bus PT, a bus ES dedicated unit, or a gas insulated switchgear with all main busbars PT and a bus ES arranged in a gas insulated switchgear unit. Some main busbar PT and busbar ES are arranged in an insulated switchgear unit. In addition, Japanese Patent Application Laid-Open No. 61-27966 can be cited as a conventional gas insulated switchgear.

The arrangement of the gas insulated switchgear unit for busbar division and busbar connection to the above countermeasure was added to the condition of arranging busbar PT and busbar ES in addition to the original purpose of connecting the two main busbars in the shortest distance through the switchgear. Therefore, the expansion or multilayering of the unit is forced, and as a result, problems such as extension of the bus bar, expansion of the installation area, and deterioration of the vibration resistance are generated.

SUMMARY OF THE INVENTION An object of the present invention is to provide a gas insulated switchgear which can eliminate the necessary bus bar by arranging busbar PT and bus bus ES as can be seen in the above countermeasures, and shorten the bus length connecting the switchgear and the main busbar. To provide.

When the vertically mounted circuit breaker is employed in the gas insulated switchgear for bus separation and bus connection, the entire apparatus is reduced in the horizontal direction. The branch bus is drawn out from the top and bottom of the breaker and connected to the main bus through the bus breaker at the shortest distance, but the branch bus on the side drawn from the upper part of the breaker extends horizontally at the same height to just above the main bus and is perpendicular to it. Bends directly underneath and is connected to the main busbar. And if the bus bar breaker is arranged in a bend at a right angle above the main bus bar, it is possible to arrange the bus bar PT and bus bus ES between the main bus bar and the bus bar breaker.

In addition, by arranging the gas insulated switchgear units for the bus line divisions of the opposing lines opposite to each other, the buses PT and the bus ES can be arranged point-symmetrically around the bus line division, and are not arranged in the gas insulated switchgear units for the bus line divisions. The busbar PT and busbar ES of the bus bar may be disposed in the gas insulated switchgear unit for bus bus connection.

The busbar PT and bus ES can be found in conventional products by adopting a vertical type breaker in the gas insulated switchgear for bus division and bus connection and by arranging busbar PT and busbar ES in the branch busbar drawn out from the top of the breaker. By locating the bus bar, the necessary bus bar can be eliminated, and the most efficient arrangement of the gas insulated switchgear can be realized. As a result, the bus length and the mounting surface of the entire gas insulated switchgear are reduced, and the deterioration of the shock resistance due to the stacking is also prevented.

In addition, the gas insulated switchgear for bus separation is a gas insulated switchgear having a plurality of bus insulated switchgear for gas bus division by arranging buses PT and bus ES in a point symmetry in the unit. Standardization becomes possible.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 and FIG. 2 are disconnection diagrams and schematic diagrams of an example of a gas insulated switchgear of a double bus 4 bus connection (bus connection 1CB) method using the present invention, wherein the main buses 1a, 1b, 2a, and 2b are respectively It is composed of a three-phase collective gas insulated busbar, and the main busbars 1a and 1b are disposed on substantially the same axis, and the main busbars 2a and 2b are opposed to the main busbars 1a and 1b on substantially the same horizontal plane. It is located at the position. Main busbars (between 1a and 1b and between 2a and 2b) are divided by gas insulated switchgear units 3 and 4 for busbar division, and the main busbars (between 1a and 2a and between b and 2b) are connected to busbars. It is connected by the gas insulated switchgear (5, 6).

The gas circuit breakers of the gas insulated switchgear for bus separation are vertically arranged, and branch buses are drawn out from the top and bottom of the circuit breaker, respectively.

The lead portion of the main circuit breaker gas separator 3a separating the main bus lines 1a and 1b to the main bus line 1b side is drawn out from the bottom of the breaker to the axial direction 1b side of the main bus line, and passes through the disconnector 3c. It is in contact with the main busbar 1b, the lead-out part toward the main busbar 1a side is drawn out from the top of the breaker to the axial direction 1a side of the main busbar, and is in contact with the main busbar 1a via the disconnector 3b. . Again, only the branch bus between the main bus 1a and the disconnector 3b is provided with the bus bar PT 7 and bus bus ES 8 for the main bus 1a.

The lead portion of the main circuit breaker 4a separating the main bus lines 2a and 2b to the main bus line 2a side is drawn out from the lower side of the breaker to the axial direction of the main bus line 2a, and passes through the disconnector 4b. It is in contact with the main bus line 2a, and the lead-out part toward the main bus line 2b side is drawn out from the upper side of the breaker to the axial direction of the main bus line 2b, and is connected to the main bus line 2b via the disconnector 4c. have. Again, the main bus bar PT 9 and bus bar ES 10 are provided only in the branch bus between the main bus 2b and the disconnector 4c.

The gas circuit breakers of the gas insulated switchgear for bus connection are arranged vertically, and branch buses are drawn out from the top and bottom of the circuit breaker, respectively.

The bus-barrier gas circuit breaker 5a connecting the main busbars 1a and 2a is installed outside the main busbar 1a, and all the outgoing parts are drawn out toward the main busbar, and the branch busbars drawn out from the lower side are disconnected ( It is connected to the main bus bar 1a via 5c, and the branch bus bar drawn out from the upper part is connected to the main bus bar 2a via the disconnector 5b. In addition, only the branch bus between the main bus 2a and the disconnecting device 5b is provided with the bus bar PT 11 and bus bus ES 12 for the main bus 2a.

The bus-barrier gas circuit breaker 6a connecting the main buses b and 2b is installed outside the main buses 2b, and all the outgoing parts are drawn out toward the main bus, and the branch buses drawn out from the lower part are disconnected ( It is connected to the main bus line 2b via 6c), and the branch bus bar drawn out from the upper part is connected to the main bus bar 1b via the disconnector 6b. Again, only the branch bus between the main bus bar 1b and the disconnector 6b is provided with the bus bar PT 13 for the main bus bar 1b and the bus bus ES 14.

According to the above configuration, the busbar PT and busbar ES for four main busbars connected by busbar division and busbar connection are most efficiently arranged in the gas insulated switchgear.

3 and 4 are disconnection connection diagrams and schematic diagrams as an example of a gas insulated switchgear of a double bus system having a plurality of bus insulated switchgear units for bus separation according to the present invention. The main buses 1 and 2, which are composed of three-phase collective gas insulated busbars, are divided into three of a, b, and c as gas insulated switchgear units 3 and 15, and 4 and 16, respectively.

The lead portion on the main bus line 1b side of the bus breaker gas breaker 3a for separating the main bus lines 1a and 1b is drawn out from the lower side of the breaker to the axial direction 1b side of the main bus line, and then passes through the disconnector 3c. It is connected to the main busbar 1b, the main busbar 1a side lead-out part is drawn out from the upper part of the breaker to the axial direction 1a side of the main busbar, and is connected to the main busbar 1a via the disconnector 3b. In addition, the bus bar PT (7) and bus bar ES (8) for the main bus bar (1a) are provided in the branch bus between the main bus bar (1a) and the disconnecting device (3b).

The lead portion of the main circuit breaker gas separation circuit 15a for separating the main bus lines 1b and 1c to the main bus line 1c side is drawn out from the lower side of the breaker to the axial direction 1c side of the main bus line, and then passes through the disconnector 15c. It is connected to the main busbar 1c, the lead-out part toward the main busbar 1b side is drawn out from the upper part of the breaker to the axial direction 1b side of the main busbar, and is connected to the main busbar 1b via the disconnector 15b. . The busbar FT 13 and busbar ES 14 for the main busbar 1b are provided in the branch bus between the main busbar 1b and the disconnector 15b.

The lead portion of the main circuit breaker 4a separating the main buses 2a and 2b to the main bus line 2a side is drawn out from the lower part of the breaker in the axial direction of the main bus line 2a, and passes through the disconnector 4b. It is connected to the main busbar 2a, and the lead-out part toward the main busbar 2b side is drawn out from the upper side of the breaker to the axial direction of the main busbar 2b, and is connected to the main busbar 2b via the disconnector 4c. have. The busbar PT 9 and busbar ES 10 for the main busbar 2b are provided in the branch bus between the main busbar 2b and the disconnector 4c.

A lead portion of the main circuit breaker 16a, which separates the main bus lines 2b and 2c, to the main bus line 2b side is drawn out from the lower side of the breaker to the axial side of the main bus line 2b, and the disconnector 16b is pulled out. It is connected to the main bus line 2b, the lead-out part toward the main bus line 2c side is drawn out from the top of the breaker to the axial direction 2c side of the main bus line, and is connected to the main bus line 2c via the disconnector 16c. have. The busbar PT 18 and busbar ES 19 for the main busbar 2c are provided in the branch bus between the main busbar 2c and the disconnector 16c.

The bus-barrier gas circuit breaker 5a connecting the main busbars 1a and 2a is installed outside the main busbar 1a, and all the outgoing parts are drawn out toward the main busbar, and the branch busbars drawn out from the bottom are disconnected ( It is connected to the main bus bar 1a via 5c, and the branch bus bar drawn out from the upper part is connected to the main bus bar 2a via the disconnector 5b. The busbar PT 11 and busbar ES 12 for the main busbar 2a are provided in the branch busbar between the main busbar 2a and the disconnector 5b.

The bus-barrier gas circuit breaker 17a for connecting the main buses 1c and 2c is installed outside the main bus 2c, and all the outgoing parts are drawn out toward the main bus, and the branch bus drawn out from the bottom is a disconnector ( It is connected to the main bus line 2c via 17c, and the branch bus bar drawn out from the upper part is connected to the main bus bar 1c via the disconnector 17b. The busbar PT 20 for the main busbar 1c and the busbar ES 21 are provided in the branch bus between the main busbar 1c and the disconnecting unit 17b.

Finally, the busbar PT and busbar ES are not disposed in the gas insulated switchgear 6 for busbar connection connecting the main busbars 1b and 2b.

According to the above structure, when the several gas insulation switchgear for bus | line division is arrange | positioned in one gas insulated switchgear, all the structures are the same type, and standardization is aimed at.

The vertical installation of a circuit breaker in the gas insulated switchgear for bus separation and bus connection reduces the entire device in the horizontal direction. When the breaker is vertically installed, a difference in length occurs between the branch bus bar drawn out from the lower part of the breaker and the branch bus bar drawn out from the upper part until it is connected to the main bus bar. That is, the branch bus drawn out from the top of the breaker is longer than the branch bus drawn out from the bottom by the length of the breaker. Therefore, by arrange | positioning a bus bar PT and bus bar ES in the part of the branch bus bar which arises by this height difference, it can prevent a bus bar becoming long.

1 is a disconnection diagram of a gas insulated switchgear of a two-bar bus 4 bus tie type according to an embodiment of the present invention;

2 shows a schematic diagram of a gas insulator according to one embodiment of the present invention,

(a) is a plan view,

(b) shows the vicinity of the gas circuit breaker for the bus section on the left side of the drawing;

(c) is a view of the vicinity of the bus breaker for bus separation from the right side of the drawing;

(d) is a view from A-A,

(e) is a view from B-B,

3 is a disconnection diagram of a gas insulated switchgear according to an embodiment of the present invention;

Figure 4 shows a schematic diagram of a plurality of bus insulated gas insulated switchgear for an embodiment of the present invention,

(a) is a plan view,

(b) and (d) are views of the vicinity of the gas insulated breaker for bus separation on the left side of the drawing.

(c) and (e) show the vicinity of the gas circuit breaker for bus separation from the right side of the drawing.

(f) is a view seen from A-A,

(g) is seen from B-B,

(h) is a view from C-C,

※ Explanation of code for main part of drawing

1, 2: 3-phase integrated gas insulated main bus

3: Gas insulated switchgear unit for busbar division (for division between main busbars 1a to 1b)

4: Gas insulated switchgear unit for busbar division (for division between main busbar 2a ~ 2b)

5: Gas insulated switchgear unit for busbar connection (for connection between main busbar 1a ~ 2a)

6: Gas-insulated switchgear unit for busbar connection (for connection between main busbars 1b and 2b)

7: Instrument transformer for main bus 1a

8: Grounding switch for bus bar work for main bus 1a

9: instrument transformer for main bus 2b

10: Grounding switch for bus bar work for main bus 2b

11: Instrument transformer for main bus 2a

12: Grounding switch for bus bar work for main bus 2a

13: Instrument transformer for main bus 1b

14: Grounding switch for bus bar work for main bus 1b

15: Gas insulated switchgear unit for busbar division (for division between main busbars 1b to 1c)

16: Gas insulated switchgear unit for busbar division (for division between main busbar 2b and 2c)

17: Gas insulated switchgear unit for bus bar connection (for connection between main buses 1c and 2c)

18: transformer for the main bus 2c

19: Grounding switch for bus bar work for main bus 2c

20: instrument transformer for main bus 1c

21: Ground switch for bus bar work for main bus 1c

Claims (6)

In the double bus system gas insulated switchgear having a gas insulated switchgear for bus bus division and a gas insulated switchgear for bus bus connection, The bus insulated gas insulated switchgear unit has a breaker arranged vertically, and draws a branch bus parallel to the axis of the main bus from two upper and lower portions of the breaker, and the branch bus is connected to the main bus via a disconnecting device. A main transformer instrument transformer (hereinafter referred to as busbar PT) and a ground circuit breaker for main bus operation (hereinafter referred to as busbar ES) are installed in the branch bus between the disconnecting unit and the main bus bar installed in the branch bus section drawn from the upper part of the breaker. A gas insulated switchgear having a bus insulated switchgear for gas separation. The method of claim 1, A gas insulated switchgear, wherein the first bus line and the second bus line of the double bus bar are provided with the bus bar PT and bus bus ES on opposite sides. The method of claim 1, The gas insulated switchgear for bus connection is provided with a vertical type circuit breaker on the outside of the double busbar, draws a branch bus vertically to the axis of the main bus in the horizontal direction from the top and the bottom of the circuit breaker, and the branch bus is disconnected. And a bus insulated switchgear connected to the main bus bar, wherein the bus bar PT and bus bus ES are installed in a branch bus between the disconnector and the main bus bar installed in the branch bus drawn from the upper circuit breaker. Gas insulated switchgear characterized in that it has. The method of claim 1, And a lightning arrester in place of the busbar PT and busbar ES. The method of claim 2, And a lightning arrester in place of the busbar PT and busbar ES. The method of claim 3, wherein And a lightning arrester in place of the busbar PT and busbar ES.